Backscattering enhancement of a chessboard metasurface based on the orbital angular momentum detection approach

Abstract

In recent years, metasurfaces have been widely employed in stealth technology, which brings great challenges for radar target detection. In order to address this issue, a novel detection approach for metasurface-stealth-target (MST) based on orbital angular momentum (OAM) vortex wave is proposed in this paper. Compared to a conventional plane wave detection system, the transmitting wave of the proposed approach is OAM-modulated, of which the wavefront is helical along the beam axis. Thus, the differentiated exciting source is introduced to different parts of MST. According to the established scattering model and full-wave simulation, the echo of MST has a strong correlation with OAM order l, which exhibits quite different scattering characteristics from the plane wave illumination. A chessboard metasurface (CM) is taken as an example to be irradiated by an OAM vortex wave of l=±2. The backscattering is significantly boosted compared to plane-wave detection, which is against the stealth ability of CM. This phenomenon is also verified by experiments. The results reveal that OAM detection is a promising approach for MST detection..